Power sweeper air filter and dust collector system



Dec. 15, 1964 R. c. PEABODY ETAL 3,160,908

POWER SWEEPER AIR FILTER AND DUST COLLECTOR SYSTEM FIS. l.

so Y INVENTOR.

20B 69 RALPH C. Psaaoay 70 BY K/rff Al. KR/ak F I CTE'. E Jowom rra/Puf ys Dec. 15, 1964 R. c. PEABODY ETAL. 3,160,908

POWER SWEEPER AIR FILTER AND DUST COLLECTOR SYSTEM 6 Sheets-Sheet 5 Filed Sept. 13, 1961 INVENTOR. RMP/l C'. Pe-waoay BY Knr/r M KR/ER MWS- Joeww M Arromvsrs Del5, 1934 R. c. PEABODY ETAL POWER SWEEPER AIR FILTER AND DUST COLLECTOR SYSTEM 6 Sheets-Sheet 4 Filed Sept. l5, 1961 NI/ Bui NSN INVENTOR RALPH C. Pz-'aaoar BY KE/w/ M KR/z-'R ALW X- J MAM Arron/frs Dec 15, 1964 R. c. PEABODY r-:TAL 3,160,908

POWER SWEEPER AIR FILTER AND DUST COLLECTOR SYSTEM Filed Sept. l5, 1961 6 Sheets-Sheet 5 239 274 gi ;240 69 238 256 238e 238C Y@ FI E'. 1D 246 249 23819 24/ 264 238A 1 1 l 254A 277 V f \2\/ 23, f "l: LM

FICE'. 1E

INVENTOR. R402# C Paaopy [JMWJRE Dec. l5, 1964 R. c. PEABODY ETAL POWER SWEEPER AIR FILTER AND DUST COLLECTOR SYSTEM 6 Sheets-Sheet 6 Filed Sept. l5, 1961 INVENTOR.

Rauw C Peasoay By Ke/rff M Kfz/R Mum. MAM

Arron/sys air. inflow United States Patent O Filed Sept. i3, i961, Ser. No. 137,8d4 5 Claims, (Cl. 15 34ti) This invention relates to power sweepers in vwhich the sweeping element is enclosed in a sweeping compartment wherein a negative pressure is maintained by a suitable lower system, for controlling the dust which is raised by the sweeping element. In such devices, a large amount of air is drawn into the sweeping enclosure due to necessary clearances under the edges of the enclosure where it meets the surface being swept. The kind andy tineness of the dost depends upon the conditions ot the surface over which the machine is moved. There is, of course, always a considerable variation in dust particle sizes ranging from particles of very small size on up to particles which can hardly be called dust and are dirt and debris. The dust should not be liberated to the surrounding atmosphere and therefore in machines of this kind, various types of air-solid separators have been heretofore provided for separating the solid particles from the air-flow, and returning the solids (dust) to a col-` lecting bin or hopper for eventual disposal.

The problem of capturing and holding the dust particles is aggravated by the' fact that very large quantities of air must be handled, and because, in many cases, the size ot the dust particles is very fine, i.e. to 0.5 micron and smaller. In addition, the sweeping machine as a whole must be capable of handling all sorts of debris, including sand, grit, dirt, litter, leaves, paper, etc. Such larger debris has frequently interfered with the operation of the devices heretofore provided for separating the dust. v

It is an object of the present invention to provide an improved power sweeper, air iilter and dust collector system whichis capable of capturing dust particles ranging from very small to larger particles, and ofreturning them conveniently, and-without operator attention,'to

a collecting hopper, for ultimate disposal.

-lt is another object of the invention to provide an improved power sweeping machine wherein a lter capacity of very large size may be provided Within aA small volumetric space. It is a further object of the invention to provide an improved power sweeper machine wherein the iilter surfaces are cleaned automatically, due to the operation of the machine', and kept in a condition of improved eiiiciency in respect to filtering operations.

Another object oi the invention is to provide an im proved power sweeping machine having an air iltering,

arrangement thereon, wherein the power sweeper is selfcleaning, and is capable of discharging from itself not` only the dust particles but also any extraneous larger debris which mayz be lodged therein. Y

It is a further object of the invention to provide '-.a power sweeper machine wherein dust is controlled by into the power sweeping compartment and the air inflow of speciiied amountis provided, for controllingr the dust raised during sweeping. It is also an object of the invention to provide'animproved power i sweeping machinegofthe vacunmized type, wherein dust.,

Patented Dec. 15,1964

increasing or decreasing the filtering capacity as needed.'

It is another object of the invention to provide in a power sweeping machine a dust iiltering arrangement which is cleaned due to motion of the vehicle.

Other and further objects are those inherent in the specification and claims and will become apparent as the description proceeds. v p

To the accomplishment of the foregoing and related ends, this invention then comprises the features hereinafter fully described andparticularly vpointed out in the claims, the following description setting forth in detail certain illustrative embodiments of the invention, these being indicative, however, of butfa few of the various ways in which the principles of the' inventionA may be employed. *t l The invention is illustrated with reference to thendrawings wherein: A 'Y FIGURE 1 is Va side elevational viewjpartly broken away and lin section, illustrating an exemplary form oi sweeping machine, embodying the invention; n

FIGURE 2 is a fragmentary enlarged vertical sec-I tional view taken along the line and in the direction of arrows 2 2 OFIGURE 1;

FIGURE 3 is a fragmentary enlarged horizontal sec- Y tional View taken along they line and in the direction of arrows 3 3 of FGURE 2;

FIGURE 4-is a combined'view showing in diagrammatic relationship the sweeping circuit of an exemplary l form of the invention; f FIGURE 5 `is a Vertical side elevational view partly broken away and in section showing 'another exemplary form of sweeping machine embodying the invention;

FIGURE 6 is an enlarged, fragmentary vertical'sec-.V` tional View' taken valong the line and in the direction of arrows 6-6 of FIGURE 5; Y Y

FIGURE 7 is a fragmentary enlarged vertical secl tional view taken along the line and 'in the direction of arrows 7 7 of FIGURE 6; v

FIGURE 8 Ais aumuch enlarged fragmentaryglvev'rtical,

' sectional View of a. portion of FIGURE 6;

y FIGURE 9 is a ,side elevational 'View partly broken awayand partly in section illustrating stillfanother ex-j emplary form of sweeping machine embodying the ,in-f

Vention; t

VFIGURE lOis an enlarged 'fragmentary vertical sectional ,view of' the portion vof the Vmachine shown in FIGURE 9;

FIGURE 1lV is-an enlarged fragmentary vertical ele` v vational View Vtaken along Vthe line andfin the direction of arrows Trlll of FIGURE 10;"

FIGURE ll2 is an enlarged vertical sectional view ot' Vthe iilter elements, separated from the machine, and in' the relationship shown in FIGUREQlOj FIGURE 13 is a much enlarged horizontal sectional 13e-.13 @garonne 12;:

Y View taken along theline and in the direction of ,arrows .FIG'URE 14 is -a perspec `ve View partly broken away?? and partly in section illustrating a preferred form ot lter- Y ing element untilized in the pr'osent invention;V Y

FIGURE 15 is a perspective view partially broken away illustrating another form of filtering element used in the present invention;

FIGURE 16 is a horizontal sectional view corresponding to FIGURE 13, through the form o-f filtering element shown in FIGURE 15, FIGURE 16 being taken along the line and in the direction of arrow 16-16 ofFIG- URE 15.

Throughout the drawings, refer tothe same parts. y Referring to FIGURE l, the sweeping machine illustrated in this figure is of the self-propelled walking type, and generally comprisesv a frame having Vsupporting wheels 11 and a guiding handle 12. On the frame there is also rotatably supported a brush V14 having correspondin g numerals Va shaft 15. The frame also supports a power source, in

the form of an internal combustion engine 15A, which is provided with an output shaft 16 which is connected by a clutch-transmission arrangement, 17 and through belt 18 to the drive pulley 19 of the brush 14. The brush, during the sweeping operation, rotates in the direction of arrow 22, and the normal reactionl of the brush bristles 14A against the floor surface F is to pull the machine in a forward direction, 'arrow 21. Propulsion in the forward direction is accordingly achieved by the rotation of the sweeping'brush, but such propulsion may be overcome by the operator, by eitherpulling backwardly -on the handle 12, or bearing down on the handle12 so as to raise thebrush off the door, in which case the propulsion stops. I v y OniY the frame, and to the rear of the brush 14 there is removably mounted a debris and dust-collecting pan 20, which can be mounted on theiframe for removal either by asliding arrangement or. by a swinging action. The box is enclosed except for aforward opening which is denoted bythe bracket 20A, and an opening denoted by the bracket 20B, which, vas will later be explained, is under'the dust filter. Atithe opening 20A, there is a downwardly extending lip 20C, and accordingly Vas the brush 14 vrotates it will projectthe debris and dust particles backwardly into the pan 20, ras shown by the arrows 24.k Upon the frame there is a downwardly extending skirt 25, which at least `enclosesthe front and sides of the brush 14, Yand the rear part'of the brush, except for a spacepinto which; the collection hopper 2) can project, so as to present opening 20A. Normally, an inner frame or shielding isvprvovided at 26-27-28, and rthe portion 28, `which defines the rear wall of the brushV chamber, is rprovided with an upwardly extending notch to receive the forward end of the debrispan 20.', l

Also, on the frame there is mounted a housingV gen-V erally designated 30, FIGURES 1, 2 and 3, in which'thereV This, 110115- and an innerl the housing is provided an eicient filtering arrangement.V inghas exterior A,walls 32, 37,'44 vandz45 wall 31, FIGURE 2, which is spaced from wall 32 by an amount sufficient soas plenum chamber generally designatedv v34.`

to provide a I 67D so that it lies over the his plenum chamber is'opennatv its top 35, .andis provided withanY outlet opening 36. One edge of the inner' Wall 31 Yborders one side of the opening 20B in the frame andan edge ofthe righr'end wan 37er rhechambefse, as

shown in FIGURE 2, 'borders they other, parallel, side.

of the opening 20B.

' The walls 31 van'd37, with the sidewalls 44 and ,'45 of the housingt), as lshown in FIGURE 3, form a vertical chamber, whichis open at the bottom, coinciding asitfdoes with the opening; 20B.,

into the Vdebris collecting hopper l20. n Y wir f YThe housing 3l0 'is. provided witha flange v38 around the. periphery/of its upper edge formed by turning in Athe 45, The ilangejisequipped within.V

walls 32, 37,744 and gasket 39. On rthis there is.

as shownn `FIGURE `2taken i Across the bottom of lifting Vand wrinkling the vcumulated dust .tofbe shaken therefromand rfall down# by latches, not illustrated, and provides a space 42, through which air may ow.

The top edge of the wall 31 is turned in to form a ange 46, as shown in FIGURE 2. The ilange 46 and the ange 3S on wall 37 have downwardly extending portions SiA and 46A which are provided with a plurality of spaced notches, and in these notches there are provided bars or tubes, over which the filtering elements, which will later be described, are hung.V At the upper part of wall 31, FIGURE 2, there is provided a damper 47 on shaft 48 which may be rotated and held at any position between the full linel and dotted line positions as shown in FIGURE 2. In the dotted line position, liow downwardly into the space 34 is entierly-cut off and in other intermediate positions the flow is partially cut off.

To the opening 36,V FIGURE 2,v there is connected the inlet 5d of a suction blower generally designated 51 havingarotor 52 mounted for rotation on shaft 53 which is driven by pulley 54 from the enginelSA. So long as the suction Ablower is operated, a negative pressure will be induced in the chamber 34 and hence in the space 42 which is above the filtering device. f

Referring to FIGURES 1 and 2, the filter generally designated 60 is formed as a plurality of generally planar, generally vertical areas of liltering material, mounted so vthat the areas are supported in generally spaced relationship and so ,that pairs of the planar areas form pockets. that the pockets are pendulouslyA The mounting is such supported from their upper portion sor that the lower portions of the pocket, areeither unrestrained or light restrained and are therefore free to move toward and away from each other, and also free to move at least a limited amount in an up and down relation.l The pockets are lcloseenough together so that there can be an'interaction between the dusty sides (exterior surfaces) of the pockets for knocking 'ofaccumulated dust thereon.

most conveniently be made by using a long piece of filtering material which can bea random fiber text-ile or a woven textile such as ilannelette. The filtering material, whichever form is selected, is looped downwardly in a number of folds over the rods or tubes 62, each loop being terminated at a substantially uniform level, here illustrated at the lines64-464. In the bottom FIGURE 2, so as ltoform what amountsY to a hem. The

stitching is carried up each side of the two parallelV areas Vthat comprise the loop as at 67A and 67B to form the pocket.V A side ange 66 is sewed Von. at 67C and gripped between thev flange 38 and cover 40 and between theiiange ,46 and a plate 68 Vclamped to flange 46 by bolts v73.

v the filter space there is run a shaft 6,9 which is journalled inthe sidewalls 44 and 45. VThe shaft has a lbent end @A and on it is attached a vane'7tl.

72 for the free s'tiikingfactionof or oscillatedpthe vane.` 70

filtering material to cause acwardly into the debris V.collection pan Ztl, withy which the housingA communicates;

y .aV cover 49.', whichhas an" inturned flange 41 all aroundsois torest on the gasketm, 39. lThe cover 4is'lield in place any suitable'way, as

' The vacuum blower 51 induces a` negative pressn're inl efspacev 42, previously'described, this negative pressure draws `through Vthe area of 'filtering Vmaterial' thus ends of the rods 62, and is4 will strike the rods ,72,fthus' pocket filters.

inducing a negative pressure in the debris collecting pan and with the brush chamber 14C with which it communicates. The brush 14, rotating in the direction of arrow 22, not only has the action of throwing discrete particles and large debris back into the pan 20, but also has a certain fan action, and this fan action, with the aid of the negative pressure induced in the chamber via blower 51, causes an inflow of air from the exterior under the skirt around the brush chamber, as illustrated by the arrow 74. The flow then continues via arrows 24 and 75 and thence through the filtering material, where the dust particles are separated. The flow continues via arrow 7 t5 through the space 42, and thence downwardly via arrow 77 into the suction blower from which the flow is exhausted as shown by arrow '7S in FIGURES 1 and 3. When it is desired'to clean the filters 60, the shaft 48 is rotated to move cover 47 from the poistion shown in full lines in FIGURE 2 to the position shown in dotted lines, thereby closing o the airflow through the filter, and the shaft o? is then rotated or oscillated, and the filters are agitated vertically thereby shaking down accumulated dust which may be adhering on the exterior surfaces of the It is a major advantage of the invention that the dislodgement of accumulated dust from the filters takes place automatically, and manual cleaning action is required infrequently or not at all. This is accomplished due to the fact that the filtering pockets are supported in a pendulous relationship, being free to move backward and forward in the direction of the double arrow 8i? as shown in FIGURE 1. As the entire sweeping machine moves along in sweeping, momentary changes in the velocity of the machine, or bumping forward and backward, and generally the manipulation of the ma- `chine, pro-vide all of the forces needed to cause the pockets 61 to swing back and forth as shown by the .double arrow S0. This pendulum movement is enhanced due to the fact that the pockets have nearly vertical sides and because a mass is provided at the bottom of the pockets which is unrestrained (or only lightly restrained by, for example, a light spring) as shown in co-pending application, Serial No. 794,762, filed February 20, 1959. As a result, the material on the side of the pocket toward which the pocket is swinging is likely to be placed into a slackened condition, and the material on the other side of the pocket tensioned, and this action reversed and repeated successively many times during sweeping. In addition, the rods 72 bounce up and down, thereby producing a strumming action, and the pockets inter-engage each other. The total effect is that accumulated dust and debris on or between the pockets is normally dislodged at a rate sufficient so as not to require any or at least not much cleaning of the filter by the operator. In the event that leaves or pieces of paper, wrappers, etc. should be 4.pulled up between the pockets, dislodgement normally takes place due to the swinging of the pockets, relative to each other, and as a consequence, flow impeding gratings, etc. are not required.

To provide efficient filtering capacity, the planar areas other. more preferred method of maintaining separation is to insert a spacing Astructure inthe pockets. Thisv form is described'with reference to the other embodiments illustrated, and in additionitcould be used in the construction of FIGURES 1-3.

In'FIGURES 1-3, the flow circuit'through the cleaningl machine is as shown in FIGURE 4, wherein the brush 14 delivers to the pan 20 upon which filter 60 is superimposed, Vand the fiow is through the filter tito the vacuum blower 51; In this for-m of circuit, the filter is interposed S between the brush and the blower, and consequently the blower handles air which has been cleaned by the lter.

-In some forms of sweeping machines, the blower is interposed between the brush and the lter, and in such event, the blower handles dusty air. Both forms of circuits are used, largely depending upon theV geometry of with a sweeping housing generally designated 101 which serves to house a brush generally designated 102 which is rotatably supported on the shaft 103. The brush is arf ranged to be rotated by power from the power source 115, y through any suitable transmission gearing. In this sweeping machine there is also provided a forwardly extending frame support 164- upon which a curb brush 105 is mounted about the shaft 1% and is driven through a suitable transmission 107 from the power source 115. In this particular machine the operator position is at 117 and the vehicle moves in the direction of arrow123.

Rotation of the brush is in the direction of arrow 112. The housing 101 is provided with downwardly extending skirts 114 all around, and is provided with an opening 128 at its forward end, into which there extends the open rear end of an otherwise closed dust and debris collection hopper generally designated 11S, which is mounted upon the vehicle 116' so that it can be removed therefrom, either as a drawer, or by swinging motion, either by hand or through power means. This debris collection hopper is provided with a downwardly extending lip 119,

which is closely adjacent the circle of rotation of the bristles of brush 102. Upon the vehicle there is provided a suction blower 121 which is connected by a transmission, not shown, to the motor source 115, the suction inlet 122 of the blower being connected by the duct 124 to an opening 125 in the brush housing 101. The outlet 126 of the blower extends into an inlet opening 127 in a filtering arrangement generally designated 130, which is best shown in FIGURES 6, 7 `and 8. Y

The filter 130 consists of a tubular body 131, a remrovable cover 132, and a removable pan 133. Y The body 131 has sidewalls 131A and 131B which extend'downwardly as shown in FIGURE 7 and are provided with an inturned flange at 131C 4and 131D. This tubular body has endwalls 131E and 131F, as shown in FIGURE' 6, said endwalls being terminated at the level of line 134-134 so as to leave between the sidewalls 131A and 131B, below this level, yopenings into which the pan 133 may be manipulated, and attached. Inst above` the level of line 134, the tubular body 131 is provided with an angular flange 135, which runs entirely around the inside of the tubular body 131. On the bottom side of this flangev there i-s cemented a resilient gasket 136.V

The pan 133 is rectangular in shape and has vertical sidewalls which are inturned at their upper edge to provide a flange 137 which dimensionally fits rthe shape de- Y fined by the gasket 136.' `At opposite'ends of the pan there are provided hooks 13S- 138 towhch the bales 139 of the clamps14il can be' detachably secured. These n i clamps are `the overcenter type, with the manipulating portion pivote-.d at 142 so that the bales .139 can be raised Vand lowered., When lowered, the bales can be unhooked n and the pan 133 which at that time is also lowered, can yf be removed by means of its handle 133A for emptying ori-servicing. rWhen the pan is re-inserted andrbales'139 the pan'against the gasket 136jandproviding arr-airl.

tight connection to seal the bottomportions of the tubul lar body 131 against outflow of air.

At the upper portion of the tubular body 131, on each side, there is an inturned flange 131G which is substantially horizontal and this flange is then continued upwardly and outwardly at 131H and lthen Vrolled over through a 180 bend at 131], so as to provides. smooth edge all around. At the endwalls 131E and 131F, this rolled over flange is made not quite a full 180 bend, being, extended inwardly and downwardly at 131K and then terminated throughout a vertical portion 131114.V The portions 131K of the flange at opposite endwalls are provided with a plurality of rounded notches, in spacedV relation, so as to receive therein tubular support members 141. These are preferably lightweight'tubes of steel or aluminum. The filter generally designated 1455 is composed much like that described with reference to FlGURES 1-3, being composed of a length of filtering membrane 146 which has a width W as shown in FIGURE 6, and a length sufiicient to provide as many downwardly extending loop-s as desired, depending upon'the capacity of the filter. as shown in FIGURE 7. Along the sides of the loops, and across the bottom, there is aline of stitching 146A, 146B, 146D and 146F. At or near the center of the width of the filter loops the stitching is curved up around the portion 146C and the material composing the filter loopis cut away below this point. The line of stitching 14613-1461) f rms a hem 1461-1 and in this hem there is disposed a round rod 147 of steel or other material sufficiently heavy so as to pull the pocket downwardly and thus normally dispose it vertically. The hem 14611 may be `closed at the end to'hold the rods 147v against endwise displacement.

At the ends of the length of filtering membrane, adjacent the sidewalls 131A and 131Bof the tubular body 131, the membrane is drawn over the roundededge 1311 at V1461 and brought down along the downwardlyY and inwardly sla-nting portion 131B and another smaller hem 1461 is provided. T he width ofthe material W asshown in FIGURE 6,- runs lengthwise of the tubular .bodyY 131,

i.e. along its longer dimension, and where the loops of.

These loopsare made of uniform vertical height,YV

and is pulled tight, thereby pulling the hems 146 and 1481 Y tightly against the linwardly and downwardly extending portions 1311-1 at theupper termination of the sidewall Y 131.` In' this way, the entire filter assembly, comprisingV a plurality of pockets, is sealed against the outward fiow of dust-laden air, around the top of the filter. Into each of the generally planar pockets thus formed there is Vinserted a separator described'in detail later in the specification, generally designated 151, which is capable of maintaining the'sides of the pockets in spaced relation; The thickness of thelseparators is-such that` Y the sides of the pockets `are substantially parallel to each other, thusforming spaced planes of filtering material; The external 'surface ofthe filter is `thus composed of the end` surfaces 153 and 154 and a plurality Vof'internalsurfaces V15`fbetween the pockets. Thmeinternalsurfaces are Vaccessible because of the spaces 156k between? each successive pocket, but the pocketsarerotherwise free to. move backward and forward in the direction of Ythe '7o double arrow157, as shown in FGURE 7, and they Vare invention. Y vided with propulsivey and steering wheels '201-202. An operator; seat is providedA at 203 and a'power source, not

Wise m'otionas shown in co-pending application, VSerial No. 794,762, filed Feb. 20, 1959, previously referred to. A free hanging pocket suspension is preferred under most conditions.

The separators 151 do not interfere with at least some upward displacement of the lower edge of the pocket, ,undery which condition Ythe planar surfaces forming the pockets are subjected to bending and wrinkling, and this aids in the dislodgement of dust from the exterior surface of the pockets. lLikewise theA free swinging movement of the pockets in a direction generally transverse to their normal position under conditions of rest, will cause them to' move against each other, thus further enhancing the loosening of accumulations of dust on the surface. The upward movement of the pockets is provided by a shaft 159, provided with a crank 160, journalled in the sidewalls 131A and 131B, by means of the journals 161.-161. This shaft is provided with two radially extending vanes 162-162, each vane being approximately one-half the length Vof the shaft, radially oppositely disposed. Accordingly, when the shaft 160 is turned, the vanes 162- 162 will successively be brought intov engagement with the exposed central portions of rods 147 of first one-.half and then the other half o' the hanging pockets, as shown in FGURE 7, and these pocketsy will be oscillated up and down in the direction of the double arrow 158 thereby causing them to bend and wrinkle and shake to loosen accumulations of dust from their exterior surfaces. Also,

' as the vehicle moves and jerks back and forth and bumps up and down, which is perfectly normal for the vehicle, the pockets will be swung back and forth in the direction of double arrow 157, and shaken up and down. This is due to the free hanging pendulous mounting of the pockets, where they are unrestrained, or only lightly restrained at the bottom. The cover 132 is in this instance provided with a grating at 132A, through which the cleaned air can discharge as indicated by larrows 164. The flow of dirty air accordingly is withdrawn from the brush chamber as shown by arrows 165, thence intothe'intake 122 of the blower 121 whence the flow is discharged as shownV by arrows 166 into the kintake of the'filter, as shown by FIGURE 6. This dirty air is distributed between and lthrough the depending pockets and is vltered, thereby causing the dust to be separated from the air. It will be' noted that in FIGURE 6 the dust-laden air is discharged in a direction generally parallelto the filtering pockets spaces 156 between said filtering pockets. VInternal bafiling not illustrated may be provided so as to insure even distribution of the dust-laden air' to all surfaces of the filter pockets.

If desired, any one ofthe filtering pockets may be considered las the end pocket of' the arrangement, andthe material is then simply drawn out to form the flange 1461 and hem1461. This simply means that one or several of the end pockets may be skipped, and theV filter capacityl thus reduced'from the housing 131;

maximum capacity for a given size Referring to FGURES 9, l0 and l1, there is illustrated a further exemplary sweeping machine embodying the In this machine-a mobile frame V200 is proshown is containedfwithin the housing 204.`V Steering `theve'hicle is accomplished by means of the steering wheel 265,. Upon' the mobilefframe there is a downwardly opening transverse Yenclosure 206between Vthe front and 1 .the rear wheelsinwhich a cylindrical'rotary brush generally designated 2fl7fis mounted for rotation about the axis 2&3, theraxis 20S being on Aradius rodsv 209 which fare pivotedy at 210i() the vehicfleframe. Provision, not illustrated, ismadej for adjusting the position of the radius rods 2tl9vup and down for raising and lowering the brush, and a suitable powerV connection is provided tothe brush VA2507 so it'can be rotatedinthe direetionuof z trroyvV 211, by

aisance power derived from the power source under the housing 204. The enclosure 206 is provided with a flexible skirt 212 on its rear and side edges, and the forward edge of the sweeping opening is defined by a structural memberL 214 extending across the vehicle from one side wall to the other of the sweeping opening 206. rl`his structural member 214 may be provided with a flexible edge 215 which engages the surface edge which is being swept. The front wall of the sweeping enclosure 2% is provided with an opening depicted by the dimension O, which extends from between the sidewalls of the housing, and is defined at its lower edge by the structural member 214 and at its upper edge by a flexible seal 216. Into this opening, which is rectangular in dimension, there extends the filling and Adischarge opening, the ymouth 218 of a debris collecting container generally designated 219. This container is illustrated in FIGURE 9 and the upper portion thereof is illustrated in FIGURE l0.

In general, it may be stated that the container 219 combines the functions of a debris collection chamber and a filtering chamber and the entire container has arrangements therein by which the clean side of the filtering arrangement can be connected to an exhaust blower generally designated 220 which is mounted in stationary relationship on the vehicle 201i. The container itself is mounted by devices not illustrated to be moved from the solid line position shown in FIGURE 9 to the dotted line position also shown in this figure, and in the latter,

position the sweeping composed of debris, dirt and dust can be discharged through the mouth 218 through which ,such debris, dirt and dust was originally swept during the sweeping operation.

The frame of the vehicle 2th) is provided with a flange opening at 221 which is connected by a ilexible tube 222 to the inlet 224 ofthe blower 22). The discharge or clean air from blower 220 is via ductwork 225 to atmosphere.

Referring to FIGURE 9 and particularly to FIGURE 10, the collection chamber 219 has an upwardly sloping bottom 230 which has a reinforced edge 231 at its mouth, which is arranged when in sweeping position to kunderlie the structural member 214 which defines the lip over which the brush sweeps into the collection chamber. The chamber suitably hanged at 232, around the balance of the mouth 218 so asto be sufficiently strong to resist deflection. The sidewalls 234, the front wall 235 vand Vthe inner rear wall 236 extend upwardly to the top of the main debris collection chamber which is generally rectangular. At the top these walls. are flanged inwardly as at 235A, 234A and 236A, and this upper opening of the main debris collection chamber is reinforced by an exterior channel 237 which serves as a bumper and a strengthening edge at this position in the assembly. Upon the opening defined by the flanges 234A, 235A and 235A, there is superimposed a cylindrical extension or sleeve generally designated 238'which serves to house the filtering elements of the assembly. This sleeve 238 is likewise provided with an inturned flange 238A at its lower edge which is irnniovably attached to the flanges 234A, 235A 'i and 236A at the upper edge of the main debris collection chamber.

In general, the sleeve 238 is constructed as previously described with reference to the filter shown in FIGURES 6 and 7, except that in this instance the walls are bent in along the rear wall and sidewalls, as at 238D, and then brought out horizontally atfZSB and then provided with a slight upstanding lip 238C. Since the front 'wall of sleeve or housing 23:34 already has some inward slant, this is only provided with the horizontalfiange 238B and the lip 23%(2. The ilange 238B and "lip 238C serve as a restingv place upon which a gasket 239 of resilient material is cemented. The constructed of the filter'generally designated 240 is as described with reference to the device shown in FIGURES 8, being provided with a plurality of pockets 241 which are formed of, preferably, a rvsingle length of filtering material; The width of the material runs cross-ways of the machine, as shown in FlGURES 9 and 10. These pockets are formed with lower hems into which a plurality of rods 242 are placed, all aspreviously described, and the pockets' are supported at their upper terminations, between pockets by a plurality of tubes 244 which, as previously described, are supported in notches 246 in the downwardly extending flanges 245 on opposite sidewalls of the filter housing 238 at its upper termination. The filter assembly is provided with sewed on side flanges, not illustrated, similar to those at 148 in FIGURE 8, and with a drawstring 249, by which the top ofthe entire filter assembly maybe drawn in and attached to the upper part of the housing 238,

Upon the housing 23d, together with the filter as assembled therein, there is placed a cover 250 Whichis provided with a flange 251 on the inside having a downwardly terminating edge 252, which bears on the side flange of thev filter and the ends of the filter membrane where it crosses the gasket 239. The cover is retained in place by a plurality of buckles, not illustrated, along the side edges.

The cover provides a space 255 above the filter, which is completely enclosed, except that an aperture is provided at 256 which will register with the port 221 of the vacuum blower. A gasket 257 is provided on the vehicle around the port 221, and when the entire assembly of 219 is lowered into place as shown in full lines in FIG- URE 9, a sealed connection will thus be established between the opening 256 of cover 250, and the port221of the vacuum blower. As a result of the suction thus applied by the vacuum blower 22d, and due to the fan action of the brush 207, an linflow of air will occur at ground lever under the flexible sealing edges 212 and 215, and into the sweeping chamber 266. This inflow of air is denoted by arrow 259. The flow of air thus prevents the outflow of dust and to avery considerable yextent prevents the brush from kicking out larger granules of sand and grit from the edges of the width being swept (ie. from the ends of the brush which is to say, the sides of the vehicle). The inflow of air, denoted by arrow 259 continues as shown by the arrow 269 through the mouth 213 of the collection chamber 219. At this point, the

heavier material will fall and accumulate at 262, while the dust-laden air will rise and will be drawn through theA filtering surfaces. The upflow of dust-laden air is nicely distributed by this arrangement .into theV spaces 4264 between successi e filter pockets. Upon passing through the filter, the cleaned air will move asin the direction of arrows 266 through the separators 267, ywhich are'of a form previously referred to, andwhichwill be described Y The cleaned air .then emerges via arrows '.269 and thence continues through the opening in detail hereinafter.

256 and into the suction side of the vacuum blower, as

shown by arrow 27d, whereupon the' clean air after passing through the vacuum blower is discharged to atmosphere via arrow 271;

The accumulation of dust is dislodgedtfromthe exterior surfaces of the filter pockets in a `manner'previously described. The filter pockets are in this instancearranged to be agitated by a motor driven shaker shaft 272 having a plurality of oppositely disposed vanes 273A and y'272B thereon. The shaker shaft 272 is provided with a sprocket 274 being driven by a chain 275 from sprocket '276 on motor 277. The motor is mounted on the collection entity 219, and is supplied by electric or hydraulic power through a flexible connection,A not shown, from :the

' main vehicle 200.

It has been discovered that Yfiltering `capacity of pracv tically any amount desired, within reasonable limits, can

be provided, according to the present invention, by the pluralityvof filtering pockets,5constructed as herein .described, wherein the pockets are composed 'fgenerallyf i upright and generally planar areas` of filtering materialv set very close together, and maintained inspacedrelation by a flexible interiorY support.v `Referring to'FIGURES fering to any degree with the construction.

Y Vgenerally at;

l2 through 16, there are kfurther illustrated-the details of pockets 3110-300 are composed of a single length of material 301 which is looped over the tubes 302. Of course, it will be understood that if a single length of material is insuicient, a seam may be sewn without inter- The length of material continues up over the first tube 302 andthen down as a planar area at 303, then bend-ing in at 394 where the material is rcaught by the line of stitching at 30S, thence around the hem 306 which contains kthe weight rod 242, andthence continuing again at the line of stitching 305 and'thence up through the planar portion 307, thence aroundV another rod'r302, and successively through a plurality of pockets. The rods 242 are unrestrained, or at the most only lightly restrained Vby very liexible tensioning means, such as a light spring, theunrestrained support being preferred. that the pockets are provided with sideseams at 146A and 146i? in FIGURE 6, and with a retaining tlange at the side edges and ends of the filter assembly, as previously described.

In the pockets thus formed, the separators 267-257 are disposed and held by friction.Y The separators are flexible and may -be compressed in a direction parallel to the plane of the separators, as denoted by the double arrow 310, andy being flexible, they may also be bent and to some extent wrinkled. Bending is easily accomplished inthe direction depicted by the double arrow 311, as occurs when the pocket as a whole swings pendulously. As a result, the overlying filter material is agitated, bent,

.and to some extent wrinkled, and accumulations of dirt -are easily dislodgedtherefrorn, thereby falling downwardly in t-he spaces 2647-264.

It will lbe Vunderstood in FIGURE 13.

of arrow 331 or transversely of the channels as in the direction of arrow 330, or even in a direction completely transverse to the channels, as in the direction of arrow 332, can easily be accomplished. It is preferred to set the composite upright as in the direction of arrows 331 or slightly inclined as when the channels a-re oriented so that they lie parallel to the 4arrow 330. Movement of the entire composite transversely ofV its general tlat plane, in either direction as depicted by arrow 334, FIG- URE '14, is easily possible, and the Aseparator as a whole therefore does not impede the pendulous motion of the ltering pockets. At the same time, it will be appreciated`v that when -a pocket moves in one direction as a pendulum, slight bending will take place, and that filtering surface which is on the inside of the bend will tend to beplaced in somewhat greater tension, and as this motion reverses due to the oscillating swinging motion of the pockets, an excellent dislodging action for accumulated dust will ensue.

In FIGURES 13 and 14, the cloth which is denoted by the sheet 301 in FIGURE 12 yforms the sides 303 and 307 In FIGURE 14, the side 7 of the liltering cloth is broken away at one part to show the appearance of the underlying spacer which as a whole is shown at 267. In FIGURES 13 and 14, the A.movement of the dust-laden air'via arrows 260 passes through the filtering Ysurfaces 303 and 307 and being thus ltered, as

.'clean Vair continues at 269 upward-ly through the Viilter f separator 267 predominantly along the channels 326 and While the separator vmay be made of several diierent materials, several preferred forms of separators areV shown in FIGURES 13-16. In 'FIGURES 12-14, there is illustrated a separator composed of plastic material which is woven'as one plane of woven material at 315 and another plane of woven material at 316, both of these being The planes 315 and 316, are connected together by curved surfaces of woven material 317 and l318. Where the curved surfaces 31'7 and 313 cross at V319, the weave intersects, and thus m-akes a strong and sturdy connection, albeit it is capable of deflection, and likewise, where these curved surfaces intersect each of the igenerallyliat'planes 315 and 316 of woven material, the weavings intersect as at v32.0 and 321. Consequently, the entire object presents two surfaces 315 and 316 of open woven material much like a fly screen, except that it is made of plastic strands, and these weavesintersect with other curved surfaces of woven material 317 and 318, and are joined thereto.

of layers 315 and 316, as by pressure in the directionrof Y .arrows 322 and 323, and if pressure or a gentle forceis exerted against the edges of the composite as inthe direction' of arrows 324 and 325, in FIGURE 14, a certain amount of compression will also take place. It will vertically as `shown in FIGURE 14, or on a diagonal upwardly., The diagonal arrangement, which simply means that `the axes `of thechannels would be parallelV to therarrow 330 of FIGURE 14, provides a somewhat easier edgewise compression, whereas when the axes of Vthe channels parallel the 4arrow 331, the ease vof corn- 4vpression edgewise of the composite isY somewhat reduced.

Vbe noted that the compositepresents open channels 326 kand 327, and ,in use in the filter, these channels are arranged so that they 'runV generally upwardly, either the separator describedin FIGURES 14 and 15.

327, but also as required through the open weaving which deiines t-he channels, and hence by interchannel flow. This interior flow is in the direction :generally of arrows v331, when the separator Ais placed with the channels entirely vertical, but would bein a slantwise direction such as in the direction of the arrow 33,0 or entirely crosswise asV sho-wn by arrow332, where the separator is disposed at an angle or withy the channels horizontal, -as thecase 'might be.

In FIGURES 15 and 16, the separator generally designated 340` is formed essentially in the same manner as In this structure, however, a central layer 341 is woven in, and thecurved surfaces of woven material 342. and 344 are interwoven at 345 withthe central layer and interwoven With the exterior layers at 346 and 347. The

action is the same as with referenceto FIGURES 13 and 14. The rigidity of the entire composite of the separator generally designated 340, is one shown at 267. y

Referring to FIGURE 10, in this ligure the movement of the iilter. pockets 242, due to vehicularmovement and lalso due to lifting of the'collector pian 2.19, as during dumping, is shown for the central pockets, the swinging movement Vbeing `shown by the double arrow 350. In

somewhatv greater than the this ligure, there is also'illustrated the condition where a ilten-is used thatrequires less than the full amount of Aspace oter'ed by theV sleevej238. Thus, for 'some of the notches v246 there are not provided any tubular supports 244 and the filtering material is simply carried forward vat 243 and lattachment made, thus blanking off the area of the filter shown in the last three notches 246. This is done, whereit isr desired touse a standardized size of sleeve 238V foniilter capacity.

capacities less` than. maximum The iilteriunits, as hereinillustrated may be set with fthe plane of. the iilter pocketsv normal to the direction of f straightV forward travelrrof the Vehicle as illustrated or parallel tosuchrdirection When` arranged normal to nthe direction of straightforward direction of motion (illustrated) the'rpendiulous swinging motion of the' filter pockets will be due to increase and decrease in velocity,

Y* changes in grade and generalfy irregularities. of y'motion having fore and aft components*ofacceleration relative f 'to thelvehicle *When theilter'pocketsare set parallel V to 'theV straight forward direction of motion ofthe vehicle,

aisance i3 any vehicle movement having an acceleration component in a direction transverse to the vehicle, as for example, turning, tipping, swayin-g, and the like will cause pendulous movement of the filter pockets.

As many widely apparently different embodiments of this invention may be made without departing from the spirit and Scope thereof, it is to be understood that I do not limit myself to the specific embodiments herein.

What is claimed is:

l. In a mobile sweeping machine mounted for movement over a surface, said machine being thereby subjected to acceleration forces incidental to suchmovement, said machine having thereon an enclosure for a power driven brush, a dust collection chamber mounted on the machine and connected to said enclosure, and suction blower means on the machine connected to the charnber for moving through the chamber the dust laden air originating in said enclosure, the chamber being connected in circuit to said suction blower so that the dust laden air moves generally upwardly therethrough, the improvement comprising a filter across the chamber in the path of upward movement of the dust laden air, said filter being composed of a plurality of adjacent upwardly opening, downwardly depending pockets of filter fabric set side by side in spaced relation and connected together at their upper ends and connected to the walls of the chamber, said pockets being supported at their upper ends and hanging unrestrained downwardly in the chamber in a direction generally opposite to the movement of the dust laden air in the chamber, and separate spacer means in each of said pockets, said spacer means comprising a member made up of inter-laced filaments of material forming an open work structure providing a plurality of individual points of support for each of the filter pocket Walls where the laments are supported by other filaments, said spacer means being operable to hold the opposite side walls of said filter pockets substantially in spaced apart planes, said spacer means being flerible in the plane of the pockets and transverse to the plane of the pockets and permitting air flow in the plane of the pockets and transverse to the pockets.

2. In a mobile sweeping machine mounted for movement over a surface, said machine thereby being subjected to acceleration forces incidental to such movement, said machine having 'an enclosure for a power driven brush, a dust collection chamber mounted on the machine and connected to said enclosure, suction blower means on the machine connected to the chamber for moving through the chamber the dust laden air originating in said enclosure, said chamber -being connected in circuit with said suction blower so that the dust laden air moves generally upwardly therethrough, the improvements comprising a iilter barrier wall across the chamber in the path of upward movement of the dust laden air, said wall bey ing composed of a plurality of adjacent upwardly open- Ving downwardly depending pockets of filter fabric set side by side in spaced relation and connected together at .their upper ends and connected to the walls of the chamber, said pockets being of generally planar configuration having spaced oppositely disposed side walls with easily deflectable reticulated .spacer means of woven plastic screen material between the walls for holding said walls apart, said spacer means having a thickness equaling the y spacing between the pockets Walls and being of generally planar configuration and deliectable normal to the place ment over a surface, said machine being thereby subjected to acceleration lforces incidental to such movement, said machine having thereon van enclosure for a power driven brush, a dust collection chamber mounted on the machine and connected to said enclosure, and suction blower means on the machine connected to the chamber for moving through the chamber the dust laden air originating in said enclosure, said chamber being connected in circuit with said suction blower so that the dust laden air moves generally upwardly therethrough; the improvement comprising a filter barrier wall across the chamber in the path of upward movement of the dust laden air, said wall being composed of a plurality of adjacent upwardly opening downwardly depending pockets of filter fabric set side by side in spaced relation and connected together atrtheir upper ends and connected to the walls ofthe chamber, said pockets being supported at the upper ends about axes positioned substantially transverse to the direction of movement of the sweeping machine, the lower portions f the pockets hanging unrestrained downwardly in the chamber in a direction generally opposite to movement of the dust laden air in the chamber, a separate rod weight attached to the lower portion of each pocket and lying in the plane of the pocket, a shaft rotatably mounted -in said chamber and positioned below the lower ends of said pocekts, at least one vane on said shaft extending radially outwardly therefrom, saidvane being of ysize and positioning to strike said rods as said shaft is rotated, each of said pockets being provided with a cut away portion aligned with shaft and of sufficient size so that the vane on said shaft does not strike the pocket material `when said shaft is rotated, 4and means to rotate said shaft.

4. In a mobile sweeping machine mounted for movement over a surface, said machine being thereby subjected to acceleration forces incidental to such movement, said machine having thereon an enclosure lfor a power driven brush, a dust collection chamber mounted on the machine and connected to said enclosure, and suction blower means on the machine connected to the chamber for moving through the chamber the dust laden air originating in said enclosure, the chamber being connected to circuit with said suction blower so that the dust laden air moves generally upwardly therethrough, the improvement comprising a lter across the chamber in the path of upward movement of the dust laden air, said filter being composed of a plurality of adjacent upwardly opening, downwardly depending pockets of filter fabric set side by side in spaced relation and connectedV together at their upper ends and connected to the walls of the chamber, said pockets being supported at their upper ends about axes transverse to the direction ofV movement of the vehicle and the lower portions of the pocket hanging unrestrained downwardly in the chamber in a direction generally opposite the movement of the dust laden lair in the chamber, and separate spacer means in each of said pockets, said spacer means comprising a member made up of woven strands of material forming an open work structure providing substantially continuous support for the filter pockets to hold the opposite side Walls for said filterV pockets in spaced apart planes, said means being flexible i in the plane ofthe pocket and transverse to the plane of the pocket and permits air flow in the planeof the pocket* `training said screens in spaced apart relationship, saidv means comprising anv open work structure permitting air flow transverse to the plane of the filter bag and in the plancof thejfilter bag in any direction. Y

(References on following page) References Cited by the Examiner UNITED STATESV PATENTS Jacobson et a1. 15-347 X Newkirk 55--304 X Warren ,183-71 X Kern I15-347 MeyerV 15-340 X Birdsall 1'83-59 Haegler 55-304 Strindberg 183-71 2,907,406 10/57 Baden et al 1183-71 X 2,973,828 3/61 Engle 183-71 X 3,008,542 11/61 Steele '15-140X 5 FOREIGN PATENTS 449,912 7/36 Great Britain. 1,170,843 9/758 France.

WALTER A. SCHEEL, Primary Examiner. l0

CHARLES A. WILLMUTH, Examnehw 

1. IN A MOBILE SWEEPING MACHINE MOUNTED FOR MOVEMENT OVER A SURFACE, SAID MACHINE BEING THEREBY SUBJECTED TO ACCELERATION FORCES INCIDENTAL TO SUCH MOVEMENT, SAID MACHINE HAVING THEREON AN ENCLOSURE FOR A POWER DRIVEN BRUSH, A DUST COLLECTION CHAMBER MOUNTED ON THE MACHINE AND CONNECTED TO SAID ENCLOSURE, AND SUCTION BLOWER MEANS ON THE MACHINE CONNECTED TO THE CHAMBER FOR MOVING THROUGH THE CHAMBER THE DUST LADEN AIR ORIGINATING IN SAID ENCLOSURE, THE CHAMBER BEING CONNECTED IN CIRCUIT IN SAID SUCTION BLOWER SO THAT THE DUST LADEN AIR MOVES GENERALLY UPWARDLY THERETHROUGH, THE IMPROVEMENT COMPRISING A FILTER ACROSS THE CHAMBER IN THE PATH OF UPWARD MOVEMENT OF THE DUST LADEN AIR, SAID FILTER BEING COMPOSED OF A PLURALITY OF ADJACENT UPWARDLY OPENING, DOWNWARDLY DEPENDING POCKETS OF FILTER FABRIC SET SIDE BY SIDE IN SPACED RELATION AND CONNECTED TOGETHER AT THEIR UPPER ENDS AND CONNECTED TO THE WALLS OF THE CHAMBER, SAID POCKETS BEING SUPPORTED AT THEIR UPPER ENDS AND HANGING UNRESTRAINED DOWNWARDLY IN THE CHAMBER IN A DIRECTION GENERALLY OPPOSITE TO THE MOVEMENT OF THE DUST LADEN AIR IN THE CHAMBER, AND SEPARATE SPACER MEANS IN EACH OF SAID POCKETS, SAID SPACER MEANS COMPRISING A MEMBER MADE UP OF INTER-LACED FILAMENTS OF MATERIAL FORMING AN OPEN WORK STRUCTURE PROVIDING A PLURALITY OF INDIVIDUAL POINTS OF SUPPORT FOR EACH OF THE FILTER POCKET WALLS WHERE THE FILAMENTS ARE SUPPORTED BY OTHER FILAMENTS, SAID SPACER MEANS BEING OPERABLE TO HOLD THE OPPOSITE SIDE WALLS OF SAID FILTER POCKETS SUBSTANTIALLY IN SPACED APART PLANES, SAID SPACER MEANS BEING FLEXIBLE IN THE PLANE OF THE POCKETS AND TRANSVERSE TO THE PLANE OF THE POCKETS AND PERMITTING AIR FLOW IN THE PLANE OF THE POCKETS AND TRANSVERSE TO THE POCKETS. 